Electricity and MagnetismFor 50 years, Edward M. Purcell's classic textbook has introduced students to the world of electricity and magnetism. The third edition has been brought up to date and is now in SI units. It features hundreds of new examples, problems, and figures, and contains discussions of real-life applications. The textbook covers all the standard introductory topics, such as electrostatics, magnetism, circuits, electromagnetic waves, and electric and magnetic fields in matter. Taking a nontraditional approach, magnetism is derived as a relativistic effect. Mathematical concepts are introduced in parallel with the physics topics at hand, making the motivations clear. Macroscopic phenomena are derived rigorously from the underlying microscopic physics. With worked examples, hundreds of illustrations, and nearly 600 end-of-chapter problems and exercises, this textbook is ideal for electricity and magnetism courses. Solutions to the exercises are available for instructors at www.cambridge.org/Purcell-Morin. |
Contents
CHAPTER 2 | 58 |
CHAPTER 3 | 116 |
ELECTRIC FIELDS AROUND CONDUCTORS | 124 |
CHAPTER 4 | 177 |
CHAPTER 5 | 235 |
of reference | 243 |
CHAPTER 6 | 277 |
CHAPTER 7 | 343 |
CHAPTER 11 | 523 |
CHAPTER 12 | 586 |
Appendix | 762 |
Appendix | 769 |
SI and Gaussian formulas | 778 |
Appendix | 789 |
Curvilinear coordinates | 791 |
Appendix | 804 |
ALTERNATINGCURRENT CIRCUITS | 388 |
WAVES | 430 |
CHAPTER 10 | 466 |
external field | 477 |
Appendix | 812 |
Appendix | 820 |
831 | |
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Common terms and phrases
atom axis calculate capacitance capacitor charge density charge distribution charge q circuit coil component conducting conductor Consider constant coordinates coulomb Coulomb’s law curl current density curve cylinder defined definition dielectric dipole direction disk distance divergence electric field electromagnetic electromotive force electrons equal equation equivalent external field factor field field due field inside field is zero field lines field strength Figure final find finite first fixed flux force frame F function Gauss’s law Gaussian units given inductor infinite ions lab frame length line integral located loop magnetic field magnitude molecules moving negative charge nonzero parallel particle path perpendicular plane plates point charge polarized positive potential energy Problem proton radius resistance resistor result ring RLC circuit Section setup sheet shown in Fig solenoid sphere spherical shell surface charge surface charge density surface integral symmetry theorem total charge uniform vector velocity voltage volume wire